DE19703565A1 - Current generation system utilising the flow velocity of liquid - Google Patents

Abstract

The system has at least one turbine (6) arranged in the liquid (1) and opposed to the direction of flow. The turbine is arranged in a flow aperture (4) located near the base of an end wall (3) of a channel (2)for at least a partial flow of the liquid. The channel has a base (5) which drops away from the aperture. Inclined lateral channel walls (7.1,7.2) bound on the base of the channel, which consists of individual elements which are assembled in the liquid.

Description

The present invention relates to a plant for generating generation of electricity by using the flow rate of a Liquid by placing at least one turbine in it Liquid is arranged against the flow direction.

Hydroelectric power plants come in a variety of forms and designs known. In particular, constant pressure turbines (action turbines) and positive pressure turbines (reaction turbines) under divorced. In the case of constant pressure turbines, the potential Energy in one or more nozzles entirely in Ge speed energy converted. On the impeller of the door The pressure does not change. In the overpressure turbine however, there is overpressure in front of the impeller. The overpressure is in the control device and the impeller in Geschwin energy implemented.

The present invention is based on the object To improve hydropower plant of the type mentioned above, ef design more efficient and in particular easier to open to make adjustable.  

To solve this problem, the turbine is in one Passage is provided, which is located at the bottom in a Front wall of a direction for at least one part flow of liquid.

The arrangement of the turbine in a passage and the Upstream control device creates a nozzle-like Guiding the liquid, reducing the flow rate is significantly increased. This makes the system essential more efficient.

The guide device is preferably produced from sub-elements which are easier to transport. Example these sub-elements can have a transportable length from 5 to 10 m. The compilation of the parts elements to the actual control device then takes place in the river itself, preferably below the water surface che.

It goes without saying that the turbine with one corresponding generator for power generation is connected. A generator is then assigned to the generator again like other necessary electrical devices. The ge Velvet construction is very simple and efficient and before environmentally friendly for all things. Even in a small river can such systems at arbitrarily short intervals be set, so that here a high potential for the Electricity is generated without using energy harmful environmental influences, such as nuclear power, coal, oil or the like. Must be used. A river course is one cheaper, never drying energy source that in almost all Countries of the world.

Further advantages, features and details of the invention are preferred from the following description Exemplary embodiments and with reference to the drawing; this shows in

Figure 1 is a view of a system according to the invention for generating electricity in the direction of flow of a liquid.

FIG. 2 shows a side view of the installation according to FIG. 1;

Fig. 3 is a plan view of the plant of FIG. 1.

A system R according to the invention for generating electricity is shown in FIGS . 1 to 3 in a liquid 1 angeord, for example in a river or in a stream. The system R has a guide device 2 , which is before given according to FIG. 3 from two sub-elements 2.1 and 2.2 be. The sub-element 2.1 has an end wall 3 , in which a passage 4 is more towards a bottom 5 is formed. In this passage 4 sits a turbine 6 , de ren blades against a direction of flow x the liquid speed 1 are employed.

In particular, from FIG. 2 it can be seen that the 5 obliquely inclined channel walls 7.1 and 7.2 connect to the Bo, which steer the liquid 1 together with a possibly also inclined bottom 5 to the passage 4 . This creates a nozzle-shaped guidance of the liquid 1 , so that the liquid 1 is passed at a relatively high speed through the passage 4 and thus the drive of the turbine 6 is improved.

The end wall 3 also has an overflow edge 8 , since there is no excessive backflow with a larger amount of liquid. However, the guide device 2 is preferably arranged in the liquid 1 in such a way that the guide device 2 is located under the water surface even during normal operation.

A line 9 schematically indicates that the turbine 6 is connected to a generator (not shown in more detail) in a machine room 10 . This machine room 10 is accessible through a door 11 .

Reference list

1

liquid

2nd

Control device

3rd

Front wall

4th

Passage

5

ground

6

turbine

7

Canal wall

8th

Overflow edge

9

management

10th

Engine room

11

door
R plant
X flow direction

Claims (5)

1. Plant for generating electricity by using the flow speed of a liquid ( 1 ) by at least one turbine ( 6 ) in this liquid ( 1 ) is arranged opposite to the direction of flow (x), characterized in that the turbine ( 6 ) in a passage ( 4 ) is provided which is located at the bottom in an end wall ( 3 ) of a guide device ( 2 ) for at least a partial flow of the liquid ( 1 ). 2. Plant according to claim 1, characterized in that the guide device ( 2 ) has a sloping towards the passage ( 4 ) towards the bottom ( 5 ). 3. Plant according to claim 2, characterized in that connect laterally inclined channel walls ( 7.1 , 7.2 ) to the bottom ( 5 ). 4. Plant according to one of claims 1-3, characterized in that the guide device ( 2 ) consists of individual partial elements ( 2.1 , 2.2 ), which are put together in the liquid ( 1 ). 5. Plant according to at least one of claims 1-4, characterized in that the end wall ( 3 ) has an over-running edge ( 8 ).